Abstract

Heparin is a known anticoagulant that, with cellular uptake, contributes to a variety of physiological conditions, including experimentally observed decreases in vascular cell proliferation and inflammation. The fact that heparin is endocytosed and decreases cellular responses rather than blocking them entirely suggested a receptor mediated model, which has been previously identified in our laboratory as TMEM184A. Our data suggest that TMEM184A associates with vascular endothelial‐cadherin (VE‐Cadherin) and heparan sulfate proteoglycans (HSPGS), modulating mechanotransduction events in response to heparin treatment and fluid shear stress (FSS), which replicates the stress induced by blood flow under physiological conditions. TMEM184A seems to play a role in trafficking HSPGs such as syndecan‐1 (SDC1) and glypican‐1 (GPC1), both of which have been characterized as mechanosensing proteoglycans. In recent studies it has been demonstrated that VE‐Cadherin may interact with HS chains. Data in the literature have shown that when HS chains are degraded by Heparinase III treatment, the strain induced decrease in VE‐Cadherin is abolished, indicating that the HSPGS are crucial in sensing the strain. Given these findings, as well as our preliminary evidence that TMEM184A associates with HSPGs, we hypothesize that TMEM184A acts as an interface in the mediation of mechanosignaling events on the extracellular surface of adherens junctions. Co‐immunoprecipitation pull down of TMEM184A followed by subsequent western blotting and immunostaining showed both VE‐Cadherin and TMEM184A in the bound supernatant, indicating that the two may colocalize at endothelial adherens junctions and associate in a mechanosensing complex. Using a GFP‐TMEM184A plasmid construct to overexpress TMEM184A in bovine aortic endothelial cells (BAOECS), our research team observed increased surface levels of VE‐Cadherin in adherens junctions under static flow conditions. These overexpressing cells were subjected to FSS, which increases TMEM184A associations with HSPGs. Our team observed an additive increase in VE‐Cadherin in adherens junctions when compared to overexpression alone in static conditions. An additional experiment done to elucidate the role of endogenous heparin (HSPGs) revealed that BAOECs washed with a concentrated salt buffer to remove HPSG‐protein interactions demonstrated decreased colocalization of VE‐Cadherin, TMEM184A, and various vesicle associated membrane proteins. The addition of heparin rescued these colocalization events, implicating HSPGs in this complex. Our ongoing work aims to elucidate how associations of TMEM184A with VE‐cadherin and HSPGs facilitate activation of mechanically induced signals and mediate the trafficking of adherens junctions’ surface proteins.Support or Funding InformationHL54269 to LJLK

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.